/* Copyright (C) 2014 InfiniDB, Inc.

   This program is free software; you can redistribute it and/or
   modify it under the terms of the GNU General Public License
   as published by the Free Software Foundation; version 2 of
   the License.

   This program is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
   GNU General Public License for more details.

   You should have received a copy of the GNU General Public License
   along with this program; if not, write to the Free Software
   Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston,
   MA 02110-1301, USA. */

/*
 * $Id: we_redistributeworkerthread.cpp 4646 2013-05-23 20:58:08Z xlou $
 */

#include <iostream>
#include <set>
#include <vector>
#include <cassert>
#include <stdexcept>
#include <sstream>
#include <string>
#include <unistd.h>
using namespace std;

#include "boost/scoped_ptr.hpp"
#include "boost/scoped_array.hpp"
#include "boost/thread/mutex.hpp"
#include "boost/filesystem/path.hpp"
#include "boost/filesystem/operations.hpp"
using namespace boost;

#include "installdir.h"

#include "configcpp.h"
using namespace config;

#include "liboamcpp.h"
#include "oamcache.h"
using namespace oam;

#include "dbrm.h"
using namespace BRM;

#include "messagequeue.h"
#include "bytestream.h"
using namespace messageqcpp;

#include "calpontsystemcatalog.h"
using namespace execplan;

#include "exceptclasses.h"
using namespace logging;

#include "IDBFileSystem.h"
#include "IDBPolicy.h"
using namespace idbdatafile;

#include "we_fileop.h"
#include "we_messages.h"
#include "we_convertor.h"
#include "we_redistributedef.h"
#include "we_redistributecontrol.h"
#include "we_redistributeworkerthread.h"

namespace redistribute
{
// static variables
boost::mutex RedistributeWorkerThread::fActionMutex;
volatile bool RedistributeWorkerThread::fStopAction = false;
volatile bool RedistributeWorkerThread::fCommitted = false;
string RedistributeWorkerThread::fWesInUse;

RedistributeWorkerThread::RedistributeWorkerThread(ByteStream& bs, IOSocket& ios)
 : fBs(bs), fIOSocket(ios), fTableLockId(0), fErrorCode(RED_EC_OK), fNewFilePtr(NULL), fOldFilePtr(NULL)
{
  fWriteBuffer.reset(new char[CHUNK_SIZE]);
}

RedistributeWorkerThread::~RedistributeWorkerThread()
{
  boost::mutex::scoped_lock lock(fActionMutex);

  if (fNewFilePtr)
    closeFile(fNewFilePtr);

  if (fOldFilePtr)
    closeFile(fOldFilePtr);

  // make sure releasing the table lock.
  if (fTableLockId > 0)
  {
    fDbrm->releaseTableLock(fTableLockId);

    // use the interface, line# replaced with lock id.
    logMessage("Releasing table lock in destructor. ", fTableLockId);
  }
}

void RedistributeWorkerThread::operator()()
{
  memcpy(&fMsgHeader, fBs.buf(), sizeof(RedistributeMsgHeader));
  fBs.advance(sizeof(RedistributeMsgHeader));

  if (fMsgHeader.messageId == RED_ACTN_REQUEST)
    handleRequest();
  else if (fMsgHeader.messageId == RED_ACTN_STOP)
    handleStop();
  else if (fMsgHeader.messageId == RED_DATA_INIT)
    handleData();
  else
    handleUnknowJobMsg();
}

void RedistributeWorkerThread::handleRequest()
{
  try
  {
    // clear stop flag if ever set.
    {
      boost::mutex::scoped_lock lock(fActionMutex);
      fStopAction = false;
      fCommitted = false;
    }

    if (setup() == 0)
    {
      if (fBs.length() >= sizeof(RedistributePlanEntry))
      {
        memcpy(&fPlanEntry, fBs.buf(), sizeof(RedistributePlanEntry));
        fBs.advance(sizeof(RedistributePlanEntry));
        OamCache::dbRootPMMap_t dbrootToPM = fOamCache->getDBRootToPMMap();
        fMyId.first = fPlanEntry.source;
        fMyId.second = (*dbrootToPM)[fMyId.first];
        fPeerId.first = fPlanEntry.destination;
        fPeerId.second = (*dbrootToPM)[fPeerId.first];

        if (grabTableLock() == 0)
        {
          // workaround extentmap slow update
          sleep(1);

          // build segment & entry list after grabbing the table lock.
          if (buildEntryList() == 0)
          {
            if (sendData() == 0)
            {
              // do bulk update
              updateDbrm();
            }
          }

          // conversation to peer after got table lock
          // confirm commit or abort
          confirmToPeer();
        }
      }
    }
  }
  catch (const std::exception&)
  {
  }
  catch (...)
  {
  }

  sendResponse(RED_ACTN_REQUEST);

  boost::mutex::scoped_lock lock(fActionMutex);
  fWesInUse.clear();
  fMsgQueueClient.reset();

  fStopAction = false;
  fCommitted = false;
}

int RedistributeWorkerThread::setup()
{
  int ret = 0;

  try
  {
    fConfig = Config::makeConfig();
    fOamCache = oam::OamCache::makeOamCache();
    fDbrm = RedistributeControl::instance()->fDbrm;

    // for segment file # workaround
    // string tmp = fConfig->getConfig("ExtentMap", "FilesPerColumnPartition");
    // int filesPerPartition = fConfig->fromText(tmp);
    // if (filesPerPartition == 0)
    //	filesPerPartition = DEFAULT_FILES_PER_COLUMN_PARTITION;
    // int dbrootNum = fOamCache->getDBRootNums().size();
    // if (dbrootNum == 0)
    // {
    //	fErrorMsg = "OamCache->getDBRootNums() failed.";
    //	logMessage(fErrorMsg, __LINE__);
    //	return 1;
    // }
    // if ((filesPerPartition % dbrootNum) != 0)
    // {
    //	fErrorMsg = "ExtentMap::FilesPerColumnPartition is not a multiple of db root number.";
    //	logMessage(fErrorMsg, __LINE__);
    //	return 1;
    // }
    // fSegPerRoot = filesPerPartition / dbrootNum;
  }
  catch (const std::exception&)
  {
    ret = 2;
  }
  catch (...)
  {
    ret = 2;
  }

  return ret;
}

int RedistributeWorkerThread::grabTableLock()
{
  fTableLockId = 0;

  try
  {
    vector<uint32_t> pms;
    pms.push_back(fMyId.second);

    if (fMyId.second != fPeerId.second)
      pms.push_back(fPeerId.second);

    struct timespec ts;
    ts.tv_sec = 0;
    ts.tv_nsec = 100 * 1000000;

    while (fTableLockId == 0 && !fStopAction)
    {
      // make sure it's not stopped.
      if (fStopAction)
        return RED_EC_USER_STOP;

        // always wait long enough for ddl/dml/cpimport to get table lock
        // for now, triple the ddl/dml/cpimport retry interval: 3 * 100ms
      struct timespec tmp = ts;

      while (nanosleep(&tmp, &ts) < 0)
        ;

      tmp = ts;

      try
      {
        uint32_t processID = ::getpid();
        int32_t txnId = 0;
        int32_t sessionId = 0;
        string processName = "WriteEngineServer";
        fTableLockId = fDbrm->getTableLock(pms, fPlanEntry.table, &processName, &processID, &sessionId,
                                           &txnId, BRM::LOADING);
      }
      catch (const std::exception& ex)
      {
        fErrorCode = RED_EC_IDB_HARD_FAIL;
        logMessage(string("getTableLock exception") + ex.what(), __LINE__);
      }
      catch (...)
      {
        fErrorCode = RED_EC_IDB_HARD_FAIL;
        logMessage("getTableLock exception", __LINE__);

        // no need to throw
        // throw IDBExcept(ERR_HARD_FAILURE);
      }
    }
  }
  catch (const std::exception& ex)
  {
    // use the interface, line# replaced with lock id.
    logMessage(string(ex.what()) + " when try to get table lock: ", fTableLockId);
  }
  catch (...)
  {
    // use the interface, line# replaced with lock id.
    logMessage("Unknown exception when try to get table lock: ", fTableLockId);
  }

  // use the interface, line# replaced with lock id.
  logMessage("Got table lock: ", fTableLockId);

  return ((fTableLockId > 0) ? 0 : -1);
}

int RedistributeWorkerThread::buildEntryList()
{
  int ret = 0;

  try
  {
    // get all column oids
    boost::shared_ptr<CalpontSystemCatalog> csc = CalpontSystemCatalog::makeCalpontSystemCatalog(0);
    const CalpontSystemCatalog::TableName table = csc->tableName(fPlanEntry.table);
    CalpontSystemCatalog::RIDList cols = csc->columnRIDs(table, true);
    CalpontSystemCatalog::OID tableAuxColOid = csc->tableAUXColumnOID(table);

    for (CalpontSystemCatalog::RIDList::iterator i = cols.begin(); i != cols.end(); i++)
      fOids.push_back(i->objnum);

    CalpontSystemCatalog::DictOIDList dicts = csc->dictOIDs(table);

    for (CalpontSystemCatalog::DictOIDList::iterator i = dicts.begin(); i != dicts.end(); i++)
      fOids.push_back(i->dictOID);

    if (tableAuxColOid > 3000)
    {
      fOids.push_back(tableAuxColOid);
    }

    bool firstOid = true;  // for adding segments, all columns have the same lay out.
    uint16_t source = fPlanEntry.source;
    uint16_t target = fPlanEntry.destination;
    uint16_t partition = fPlanEntry.partition;
    uint32_t minWidth = 8;  // column width greater than 8 will be dictionary.

    for (vector<int64_t>::iterator i = fOids.begin(); i != fOids.end(); i++)
    {
      vector<EMEntry> entries;
      int rc = fDbrm->getExtents(*i, entries, false, false, true);

      if (rc != 0 || entries.size() == 0)
      {
        ostringstream oss;
        oss << "Error in DBRM getExtents; oid:" << *i << "; returnCode: " << rc;
        throw runtime_error(oss.str());
      }

      // same oid has the same column width
      uint32_t colWid = entries.front().colWid;
      vector<EMEntry>::iterator targetHwmEntry = entries.end();  // for HWM_0 workaround

      if (colWid > 0 && colWid < minWidth)
        minWidth = colWid;

      for (vector<EMEntry>::iterator j = entries.begin(); j != entries.end(); j++)
      {
        if (j->dbRoot == source && j->partitionNum == partition)
        {
          fUpdateRtEntries.push_back(BulkUpdateDBRootArg(j->range.start, target));

          if (firstOid)
            fSegments.insert(j->segmentNum);
        }

#if 0
                else if (j->dbRoot == target && j->partitionNum == partition)
                {
                    // the partition already exists on the target dbroot
                    fErrorCode = RED_EC_PART_EXIST_ON_TARGET;
                    ostringstream oss;
                    oss << "oid:" << *i << ", partition:" << partition << " exists, source:"
                        << source << ", destination:" << target;
                    fErrorMsg = oss.str();
                    logMessage(fErrorMsg, __LINE__);
                    return fErrorCode;
                }

#endif

        // workaround for HWM_0 of highest extents of the oid on target dbroot.
        if (j->dbRoot == target)
        {
          if (targetHwmEntry == entries.end())
          {
            targetHwmEntry = j;
          }
          else
          {
            if (j->partitionNum > targetHwmEntry->partitionNum)
            {
              targetHwmEntry = j;
            }
            else if (j->partitionNum == targetHwmEntry->partitionNum &&
                     j->blockOffset > targetHwmEntry->blockOffset)
            {
              targetHwmEntry = j;
            }
            else if (j->partitionNum == targetHwmEntry->partitionNum &&
                     j->blockOffset == targetHwmEntry->blockOffset &&
                     j->segmentNum > targetHwmEntry->segmentNum)
            {
              targetHwmEntry = j;
            }
          }
        }
      }  // for em entries

      // HWM_0 workaround
      // HWM 0 has two possibilities:
      //     1. segment file has one extent, and the first block is not full yet.
      //     2. segment file has more than one extents, the HWM of the extents other than
      //        the last extent is set to 0, that is only last extent has none-zero HWM.
      // In tuple-bps::makeJob, there is a check to handle last extent has 0 hwm:
      //  (scannedExtents[i].HWM == 0 && (int) i < lastExtent[scannedExtents[i].dbRoot-1])
      //          lbidsToScan = scannedExtents[i].range.size * 1024;
      // Based on this check, the number of block to scan is caculated.
      // After redistributing the partitions, the original case 1 extent on destination
      // may not be the highest extent in the dbroot, and result in a full extent scan.
      // This scan will fail because there is no enough blocks if this is an abbreviated
      // extent or not enough chunks if the column is compressed.
      // The workaround is to bump up the HWM to 1 if moved in partitions are greater.
      if (targetHwmEntry != entries.end() &&  // exclude no extent case
          targetHwmEntry->colWid > 0 &&       // exclude dictionary
          targetHwmEntry->HWM == 0 && targetHwmEntry->partitionNum < partition)
      {
        BulkSetHWMArg arg;
        arg.oid = *i;
        arg.partNum = targetHwmEntry->partitionNum;
        arg.segNum = targetHwmEntry->segmentNum;
        arg.hwm = targetHwmEntry->colWid;  // will correct later based on minWidth

        fUpdateHwmEntries.push_back(arg);
      }
    }  // for oids

    // HWM_0 workaround
    // Caculate the min(column width), the HWM(bump up to) for each column.
    if (fUpdateHwmEntries.size() > 0)
    {
      // update the HWM based in column width, not include dictionary extents
      for (vector<BRM::BulkSetHWMArg>::iterator j = fUpdateHwmEntries.begin(); j != fUpdateHwmEntries.end();
           j++)
      {
        if (j->hwm <= 8)
          j->hwm /= minWidth;
        else
          j->hwm = 1;  // not needed, but in case
      }
    }
  }
  catch (const std::exception& ex)
  {
    fErrorCode = RED_EC_EXTENT_ERROR;
    fErrorMsg = ex.what();
    logMessage(fErrorMsg, __LINE__);
    ret = fErrorCode;
  }
  catch (...)
  {
    fErrorCode = RED_EC_EXTENT_ERROR;
    fErrorMsg = "get extent error.";
    logMessage(fErrorMsg, __LINE__);
    ret = fErrorCode;
  }

  return ret;
}

int RedistributeWorkerThread::sendData()
{
  WriteEngine::FileOp fileOp;  // just to get filename, not for file operations
  bool remotePM = (fMyId.second != fPeerId.second);
  uint32_t dbroot = fPlanEntry.source;
  uint32_t partition = fPlanEntry.partition;
  int16_t source = fPlanEntry.source;
  int16_t dest = fPlanEntry.destination;

  IDBDataFile::Types fileType = (IDBPolicy::useHdfs()    ? IDBDataFile::HDFS
                                 : IDBPolicy::useCloud() ? IDBDataFile::CLOUD
                                                         : IDBDataFile::UNBUFFERED);

  IDBFileSystem& fs = IDBFileSystem::getFs(fileType);

  if ((remotePM) && (fileType != IDBDataFile::HDFS))
  {
    if (connectToWes(fPeerId.second) != 0)
    {
      fErrorCode = RED_EC_CONNECT_FAIL;
      ostringstream oss;
      oss << "Failed to connect to PM" << fPeerId.second << " from PM" << fMyId.second;
      fErrorMsg = oss.str();
      logMessage(fErrorMsg, __LINE__);
      return fErrorCode;
    }

    // start to send each segment file
    uint32_t seq = 0;
    ByteStream bs;

    // start conversion with peer, hand shaking.
    RedistributeMsgHeader header(dest, source, seq++, RED_DATA_INIT);
    bs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;
    bs.append((const ByteStream::byte*)&header, sizeof(header));
    fMsgQueueClient->write(bs);

    SBS sbs = fMsgQueueClient->read();

    if (!checkDataTransferAck(sbs, 0))
      return fErrorCode;

    for (vector<int64_t>::iterator i = fOids.begin(); i != fOids.end(); i++)
    {
      for (set<int16_t>::iterator j = fSegments.begin(); j != fSegments.end(); ++j)
      {
        char fileName[WriteEngine::FILE_NAME_SIZE];
        int rc = fileOp.oid2FileName(*i, fileName, false, dbroot, partition, *j);

        if (rc == WriteEngine::NO_ERROR)
        {
          ostringstream oss;
          oss << "<=redistributing: " << fileName << ", oid=" << *i << ", db=" << source
              << ", part=" << partition << ", seg=" << *j << " to db=" << dest;
          logMessage(oss.str(), __LINE__);
        }
        else
        {
          fErrorCode = RED_EC_OID_TO_FILENAME;
          ostringstream oss;
          oss << "Failed to get file name: oid=" << *i << ", dbroot=" << dbroot << ", partition=" << partition
              << ", segment=" << *j;
          fErrorMsg = oss.str();
          logMessage(fErrorMsg, __LINE__);
          return fErrorCode;
        }

        if (fOldFilePtr != NULL)
          closeFile(fOldFilePtr);

        errno = 0;
        FILE* fOldFilePtr = fopen(fileName, "rb");

        if (fOldFilePtr != NULL)
        {
          ostringstream oss;
          oss << "open " << fileName << ", oid=" << *i << ", dbroot=" << dbroot << ", partition=" << partition
              << ", segment=" << *j << ". " << fOldFilePtr;
          logMessage(oss.str(), __LINE__);
        }
        else
        {
          int e = errno;
          fErrorCode = RED_EC_OPEN_FILE_FAIL;
          ostringstream oss;
          oss << "Failed to open " << fileName << ", oid=" << *i << ", dbroot=" << dbroot
              << ", partition=" << partition << ", segment=" << *j << ". " << strerror(e) << " (" << e << ")";
          fErrorMsg = oss.str();
          logMessage(fErrorMsg, __LINE__);
          return fErrorCode;
        }

        // add to set for remove after commit
        addToDirSet(fileName, true);

        char chunk[CHUNK_SIZE];
        errno = 0;
        fseek(fOldFilePtr, 0, SEEK_END);     // go to end of file
        long fileSize = ftell(fOldFilePtr);  // get current file size

        if (fileSize < 0)
        {
          int e = errno;
          ostringstream oss;
          oss << "Fail to tell file size: " << strerror(e) << " (" << e << ")";
          fErrorMsg = oss.str();
          fErrorCode = RED_EC_FSEEK_FAIL;
          logMessage(fErrorMsg, __LINE__);
          return fErrorCode;
        }

        // send start message to have the file of fileSize created at target dbroot.
        bs.restart();
        RedistributeMsgHeader header(dest, source, seq++, RED_DATA_START);
        RedistributeDataControl dataControl(*i, dest, partition, *j, fileSize);
        bs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;
        bs.append((const ByteStream::byte*)&header, sizeof(header));
        bs.append((const ByteStream::byte*)&dataControl, sizeof(dataControl));
        fMsgQueueClient->write(bs);

        sbs = fMsgQueueClient->read();

        if (!checkDataTransferAck(sbs, fileSize))
          return fErrorCode;

        // now send the file chunk by chunk.
        rewind(fOldFilePtr);
        int64_t bytesLeft = fileSize;
        size_t bytesSend = CHUNK_SIZE;
        header.messageId = RED_DATA_CONT;

        while (bytesLeft > 0)
        {
          if (fStopAction)
          {
            closeFile(fOldFilePtr);
            fOldFilePtr = NULL;
            return RED_EC_USER_STOP;
          }

          if (bytesLeft < (long)CHUNK_SIZE)
            bytesSend = bytesLeft;

          errno = 0;
          size_t n = fread(chunk, 1, bytesSend, fOldFilePtr);

          if (n != bytesSend)
          {
            int e = errno;
            ostringstream oss;
            oss << "Fail to read: " << strerror(e) << " (" << e << ")";
            fErrorMsg = oss.str();
            fErrorCode = RED_EC_FREAD_FAIL;
            logMessage(fErrorMsg, __LINE__);
            return fErrorCode;
          }

          header.sequenceNum = seq++;
          bs.restart();
          bs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;
          bs.append((const ByteStream::byte*)&header, sizeof(header));
          bs << (size_t)bytesSend;
          bs.append((const ByteStream::byte*)chunk, bytesSend);
          fMsgQueueClient->write(bs);

          sbs = fMsgQueueClient->read();

          if (!checkDataTransferAck(sbs, bytesSend))
            return fErrorCode;

          bytesLeft -= bytesSend;
        }

        closeFile(fOldFilePtr);
        fOldFilePtr = NULL;

        header.messageId = RED_DATA_FINISH;
        header.sequenceNum = seq++;
        bs.restart();
        bs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;
        bs.append((const ByteStream::byte*)&header, sizeof(header));
        bs << (uint64_t)fileSize;
        fMsgQueueClient->write(bs);

        sbs = fMsgQueueClient->read();

        if (!checkDataTransferAck(sbs, fileSize))
          return fErrorCode;

      }  // segments
    }    // for oids
  }      // remote peer non-hdfs
  else   // local or HDFS file copy
  {
    std::map<int, std::string> rootToPathMap;

    // use cp, in case failed in middle.  May consider to use rename if possible.
    for (vector<int64_t>::iterator i = fOids.begin(); i != fOids.end(); i++)
    {
      for (set<int16_t>::iterator j = fSegments.begin(); j != fSegments.end(); ++j)
      {
        if (fStopAction)
          return RED_EC_USER_STOP;

        if (fileType == IDBDataFile::HDFS)  // HDFS file copy
        {
          string sourceName;
          int rc = buildFullHdfsPath(rootToPathMap,  // map of root to path
                                     *i,             // OID
                                     source,         // dbroot
                                     partition,      // partition
                                     *j,             // segment
                                     sourceName);    // full path name

          if (rc != 0)
          {
            fErrorCode = RED_EC_OID_TO_FILENAME;
            ostringstream oss;
            oss << "Failed to get src file name: oid=" << *i << ", dbroot=" << source
                << ", partition=" << partition << ", segment=" << *j;
            fErrorMsg = oss.str();
            logMessage(fErrorMsg, __LINE__);
            return fErrorCode;
          }

          string destName;
          rc = buildFullHdfsPath(rootToPathMap,  // map of root to path
                                 *i,             // OID
                                 dest,           // dbroot
                                 partition,      // partition
                                 *j,             // segment
                                 destName);      // full path name

          if (rc != 0)
          {
            fErrorCode = RED_EC_OID_TO_FILENAME;
            ostringstream oss;
            oss << "Failed to get dest file name: oid=" << *i << ", dbroot=" << dest
                << ", partition=" << partition << ", segment=" << *j;
            fErrorMsg = oss.str();
            logMessage(fErrorMsg, __LINE__);
            return fErrorCode;
          }

          ostringstream oss;
          oss << "<=redistributing(hdfs): " << sourceName << ", oid=" << *i << ", db=" << source
              << ", part=" << partition << ", seg=" << *j << " to db=" << dest;
          logMessage(oss.str(), __LINE__);

          // add to set for remove after commit/abort
          addToDirSet(sourceName.c_str(), true);
          addToDirSet(destName.c_str(), false);

          int ret = fs.copyFile(sourceName.c_str(), destName.c_str());

          if (ret != 0)
          {
            fErrorCode = RED_EC_COPY_FILE_FAIL;
            ostringstream oss;
            oss << "Failed to copy " << sourceName << " to " << destName << "; error is: " << strerror(errno);
            fErrorMsg = oss.str();
            logMessage(fErrorMsg, __LINE__);
            return fErrorCode;
          }
        }
        else  // local file copy
        {
          char sourceName[WriteEngine::FILE_NAME_SIZE];
          int rc = fileOp.oid2FileName(*i, sourceName, false, source, partition, *j);

          if (rc != WriteEngine::NO_ERROR)
          {
            fErrorCode = RED_EC_OID_TO_FILENAME;
            ostringstream oss;
            oss << "Failed to get file name: oid=" << *i << ", dbroot=" << source
                << ", partition=" << partition << ", segment=" << *j;
            fErrorMsg = oss.str();
            logMessage(fErrorMsg, __LINE__);
            return fErrorCode;
          }

          char destName[WriteEngine::FILE_NAME_SIZE];
          rc = fileOp.oid2FileName(*i, destName, true, dest, partition, *j);

          if (rc != WriteEngine::NO_ERROR)
          {
            fErrorCode = RED_EC_OID_TO_FILENAME;
            ostringstream oss;
            oss << "Failed to get file name: oid=" << *i << ", dbroot=" << dest << ", partition=" << partition
                << ", segment=" << *j;
            fErrorMsg = oss.str();
            logMessage(fErrorMsg, __LINE__);
            return fErrorCode;
          }

          ostringstream oss;
          oss << "<=redistributing(copy): " << sourceName << ", oid=" << *i << ", db=" << source
              << ", part=" << partition << ", seg=" << *j << " to db=" << dest;
          logMessage(oss.str(), __LINE__);

          // add to set for remove after commit/abort
          addToDirSet(sourceName, true);
          addToDirSet(destName, false);

          // Using boost::copy_file() instead of IDBFileSystem::copy-
          // File() so we can capture/report any boost exception error
          // msg that IDBFileSystem::copyFile() currently swallows.
          try
          {
            boost::filesystem::copy_file(sourceName, destName);
          }

#if BOOST_VERSION >= 105200
          catch (boost::filesystem::filesystem_error& e)
#else
          catch (boost::filesystem::basic_filesystem_error<filesystem::path>& e)
#endif
          {
            fErrorCode = RED_EC_COPY_FILE_FAIL;
            ostringstream oss;
            oss << "Failed to copy " << sourceName << " to " << destName << "; error is: " << e.what();
            fErrorMsg = oss.str();
            logMessage(fErrorMsg, __LINE__);
            return fErrorCode;
          }
        }
      }  // segment
    }    // oid
  }      // !remote

  return 0;
}

//------------------------------------------------------------------------------
// Construct a full path name based on the given oid, root, partition, and seg.
// The rootToPathMap is the map of dbroot to dbrootPath that we are using.  We
// are using this function instead of the usual FileOp::oid2FileName() function,
// because that function only works with "local" DBRoots.  In the case of
// an HDFS copy, we will be copying files from/to DBRoots that are not on the
// local PM.
//------------------------------------------------------------------------------
int RedistributeWorkerThread::buildFullHdfsPath(std::map<int, std::string>& rootToPathMap, int64_t colOid,
                                                int16_t dbRoot, uint32_t partition, int16_t segment,
                                                std::string& fullFileName)
{
  std::map<int, std::string>::const_iterator iter = rootToPathMap.find(dbRoot);

  if (iter == rootToPathMap.end())
  {
    ostringstream oss;
    oss << "DBRoot" << dbRoot;
    std::string dbRootPath = fConfig->getConfig("SystemConfig", oss.str());

    if (dbRootPath.empty())
    {
      return 1;
    }

    rootToPathMap[dbRoot] = dbRootPath;
    iter = rootToPathMap.find(dbRoot);
  }

  char tempFileName[WriteEngine::FILE_NAME_SIZE];
  char dbDir[WriteEngine::MAX_DB_DIR_LEVEL][WriteEngine::MAX_DB_DIR_NAME_SIZE];

  int rc = WriteEngine::Convertor::oid2FileName(colOid, tempFileName, dbDir, partition, segment);

  if (rc != WriteEngine::NO_ERROR)
  {
    return 2;
  }

  ostringstream fullFileNameOss;
  fullFileNameOss << iter->second << '/' << tempFileName;
  fullFileName = fullFileNameOss.str();

  return 0;
}

int RedistributeWorkerThread::connectToWes(int pmId)
{
  int ret = 0;
  ostringstream oss;
  oss << "pm" << pmId << "_WriteEngineServer";

  try
  {
    fMsgQueueClient.reset(new MessageQueueClient(oss.str(), fConfig));
  }
  catch (const std::exception& ex)
  {
    fErrorMsg = "Caught exception when connecting to " + oss.str() + " -- " + ex.what();
    ret = 1;
  }
  catch (...)
  {
    fErrorMsg = "Caught exception when connecting to " + oss.str() + " -- unknown";
    ret = 2;
  }

  return ret;
}

int RedistributeWorkerThread::updateDbrm()
{
  int rc1 = BRM::ERR_OK;
  int rc2 = BRM::ERR_OK;
  boost::mutex::scoped_lock lock(fActionMutex);

  // cannot stop after extent map is updated.
  if (!fStopAction)
  {
    if (fUpdateHwmEntries.size() > 0)
      rc1 = fDbrm->bulkSetHWM(fUpdateHwmEntries, 0);

    if (rc1 == BRM::ERR_OK)
    {
      int rc2 = fDbrm->bulkUpdateDBRoot(fUpdateRtEntries);

      if (rc2 == 0)
        fCommitted = true;
      else
        fErrorCode = RED_EC_UPDATE_DBRM_FAIL;
    }

    // logging for debug
    {
      if (fUpdateHwmEntries.size() > 0)
      {
        ostringstream oss;
        oss << "HWM_0 workaround, updateHWM(oid,part,seg,hwm)";
        vector<BRM::BulkSetHWMArg>::iterator i = fUpdateHwmEntries.begin();

        for (; i != fUpdateHwmEntries.end(); i++)
        {
          oss << ":(" << i->oid << "," << i->partNum << "," << i->segNum << "," << i->hwm << ")";
        }

        oss << ((rc1 == BRM::ERR_OK) ? " success" : " failed");
        logMessage(oss.str(), __LINE__);
      }

      if (rc1 == BRM::ERR_OK)
      {
        ostringstream oss;
        oss << "updateDBRoot(startLBID,dbRoot)";
        vector<BRM::BulkUpdateDBRootArg>::iterator i = fUpdateRtEntries.begin();

        for (; i != fUpdateRtEntries.end(); i++)
          oss << ":(" << i->startLBID << "," << i->dbRoot << ")";

        oss << ((rc2 == BRM::ERR_OK) ? " success" : " failed");
        logMessage(oss.str(), __LINE__);
      }
    }
  }

  return ((rc1 == BRM::ERR_OK && rc2 == BRM::ERR_OK) ? 0 : -1);
}

bool RedistributeWorkerThread::checkDataTransferAck(SBS& sbs, size_t size)
{
  if (sbs->length() == 0)
  {
    ostringstream oss;
    oss << "Zero byte read, Network error.";
    fErrorMsg = oss.str();
    logMessage(fErrorMsg, __LINE__);
    fErrorCode = RED_EC_NETWORK_FAIL;
  }
  else if (sbs->length() < (sizeof(RedistributeMsgHeader) + 1))
  {
    ostringstream oss;
    oss << "Short message, length=" << sbs->length();
    fErrorMsg = oss.str();
    logMessage(fErrorMsg, __LINE__);
    fErrorCode = RED_EC_WKR_MSG_SHORT;
  }
  else
  {
    // Need check header info
    ByteStream::byte wesMsgId;
    *sbs >> wesMsgId;
    // const RedistributeMsgHeader* h = (const RedistributeMsgHeader*) sbs->buf();
    sbs->advance(sizeof(RedistributeMsgHeader));
    size_t ack;
    *sbs >> ack;

    if (ack != size)
    {
      ostringstream oss;
      oss << "Acked size does not match request: " << ack << "/" << size;
      fErrorMsg = oss.str();
      logMessage(fErrorMsg, __LINE__);
      fErrorCode = RED_EC_SIZE_NACK;
    }
  }

  sbs.reset();

  return (fErrorCode == RED_EC_OK);
}

void RedistributeWorkerThread::confirmToPeer()
{
  if (fTableLockId > 0)
  {
    bool rc = false;

    try
    {
      rc = fDbrm->releaseTableLock(fTableLockId);

      // use the interface, line# replaced with lock id.
      logMessage("Releasing table lock... ", fTableLockId);
    }
    catch (const std::exception& ex)
    {
      // too bad, the talbe lock is messed up.
      fErrorMsg = ex.what();

      // use the interface, line# replaced with lock id.
      logMessage("Release table exception: " + fErrorMsg, fTableLockId);
    }
    catch (...)
    {
      // use the interface, line# replaced with lock id.
      logMessage("Release table lock unknown exception. ", fTableLockId);
    }

    if (rc == true)
    {
      // use the interface, line# replaced with lock id.
      logMessage("Release table lock return true. ", fTableLockId);
      fTableLockId = 0;
    }
    else
    {
      // let destructor try again.
      // use the interface, line# replaced with lock id.
      logMessage("Release table lock return false. ", fTableLockId);
    }
  }

  IDBFileSystem& fs = (IDBPolicy::useHdfs()    ? IDBFileSystem::getFs(IDBDataFile::HDFS)
                       : IDBPolicy::useCloud() ? IDBFileSystem::getFs(IDBDataFile::CLOUD)
                                               : IDBFileSystem::getFs(IDBDataFile::BUFFERED));

  uint32_t confirmCode = RED_DATA_COMMIT;

  if (fErrorCode != RED_EC_OK || fStopAction == true)  // fCommitted must be false
    confirmCode = RED_DATA_ABORT;

  if (fMyId.second != fPeerId.second)
  {
    if (fMsgQueueClient.get() != NULL)
    {
      ByteStream bs;
      RedistributeMsgHeader header(fPeerId.first, fMyId.first, -1, confirmCode);
      bs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;
      bs.append((const ByteStream::byte*)&header, sizeof(header));
      fMsgQueueClient->write(bs);

      // not going to retry for now, ignore the ack and close the connection.
      fMsgQueueClient->read();
      fMsgQueueClient.reset();
    }
  }
  else if (confirmCode != RED_DATA_COMMIT)
  {
    for (set<string>::iterator i = fNewDirSet.begin(); i != fNewDirSet.end(); i++)
    {
      fs.remove(i->c_str());  // ignoring return code
    }
  }

  // new files committed, remove old ones.
  if (confirmCode == RED_DATA_COMMIT)
  {
    for (set<string>::iterator i = fOldDirSet.begin(); i != fOldDirSet.end(); i++)
    {
      fs.remove(i->c_str());  // ignoring return code
    }
  }

  fNewDirSet.clear();
  fOldDirSet.clear();
}

void RedistributeWorkerThread::addToDirSet(const char* fileName, bool isSource)
{
  string path(fileName);
  size_t found = path.find_last_of("/\\");
  path = path.substr(0, found);

  if (isSource)
    fOldDirSet.insert(path);
  else
    fNewDirSet.insert(path);
}

void RedistributeWorkerThread::handleStop()
{
  boost::mutex::scoped_lock lock(fActionMutex);

  // cannot stop after extent map is updated.
  if (!fCommitted)
    fStopAction = true;

  lock.unlock();

  logMessage("User stop", __LINE__);
  sendResponse(RED_ACTN_STOP);
}

void RedistributeWorkerThread::sendResponse(uint32_t type)
{
  uint32_t tmp = fMsgHeader.destination;
  fMsgHeader.destination = fMsgHeader.source;
  fMsgHeader.source = tmp;
  fMsgHeader.messageId = RED_ACTN_RESP;

  fBs.restart();
  fBs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;  // dummy, keep for now.
  fBs.append((const ByteStream::byte*)&fMsgHeader, sizeof(fMsgHeader));

  if (type == RED_ACTN_REQUEST)
  {
    if (fErrorCode == RED_EC_OK && fStopAction == false)
      fPlanEntry.status = RED_TRANS_SUCCESS;
    else if (fErrorCode == RED_EC_PART_EXIST_ON_TARGET)
      fPlanEntry.status = RED_TRANS_SKIPPED;
    else if (fErrorCode != RED_EC_OK)
      fPlanEntry.status = RED_TRANS_FAILED;

    // else -- stopped, may try again if support resume

    fBs.append((const ByteStream::byte*)&fPlanEntry, sizeof(fPlanEntry));
  }

  fIOSocket.write(fBs);
}

void RedistributeWorkerThread::handleData()
{
  bool done = false;
  bool noExcept = true;
  SBS sbs;
  size_t size = 0;

  try
  {
    do
    {
      switch (fMsgHeader.messageId)
      {
        case RED_DATA_INIT: handleDataInit(); break;

        case RED_DATA_START: handleDataStart(sbs, size); break;

        case RED_DATA_CONT: handleDataCont(sbs, size); break;

        case RED_DATA_FINISH: handleDataFinish(sbs, size); break;

        case RED_DATA_COMMIT:
          handleDataCommit(sbs, size);
          done = true;
          break;

        case RED_DATA_ABORT:
          handleDataAbort(sbs, size);
          done = true;
          break;

        default:
          handleUnknowDataMsg();
          done = true;
          break;
      }

      if (!done)
      {
        // get next message
        sbs = fIOSocket.read();
        ByteStream::byte wesMsgId;
        *sbs >> wesMsgId;
        memcpy(&fMsgHeader, sbs->buf(), sizeof(RedistributeMsgHeader));
        sbs->advance(sizeof(RedistributeMsgHeader));
      }
    } while (!done);  // will break after commit/abort or catch an exception
  }
  catch (const std::exception& ex)
  {
    noExcept = false;
    logMessage(ex.what(), __LINE__);
  }
  catch (...)
  {
    noExcept = false;
  }

  if (noExcept == false)
  {
    // send NACK to peer
    fBs.restart();
    fBs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;  // dummy, keep for now.
    fBs.append((const ByteStream::byte*)&fMsgHeader, sizeof(fMsgHeader));
    fBs << ((size_t)-1);
    fIOSocket.write(fBs);
  }

  fBs.reset();
  fIOSocket.close();
}

void RedistributeWorkerThread::handleDataInit()
{
  uint32_t tmp = fMsgHeader.destination;
  fMsgHeader.destination = fMsgHeader.source;
  fMsgHeader.source = tmp;
  fMsgHeader.messageId = RED_DATA_ACK;
  size_t size = 0;

  fBs.restart();
  fBs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;  // dummy, keep for now.
  fBs.append((const ByteStream::byte*)&fMsgHeader, sizeof(fMsgHeader));
  fBs << size;

  // finish the hand shaking
  fIOSocket.write(fBs);
}

void RedistributeWorkerThread::handleDataStart(SBS& sbs, size_t& size)
{
  char fileName[WriteEngine::FILE_NAME_SIZE];

  try
  {
    // extract the control data for the segment file
    RedistributeDataControl dc;

    if (sbs->length() >= sizeof(RedistributeDataControl))
    {
      memcpy(&dc, sbs->buf(), sizeof(RedistributeDataControl));
      sbs->advance(sizeof(RedistributeDataControl));
      size = dc.size;
    }
    else
    {
      ostringstream oss;
      oss << "Short message, length=" << sbs->length();
      fErrorMsg = oss.str();
      fErrorCode = RED_EC_WKR_MSG_SHORT;
      logMessage(fErrorMsg, __LINE__);
      throw runtime_error(fErrorMsg);
    }

    // create and open the file for writing.
    WriteEngine::FileOp fileOp;  // just to get filename, not for file operations
    int rc = fileOp.oid2FileName(dc.oid, fileName, true, dc.dbroot, dc.partition, dc.segment);

    if (rc == WriteEngine::NO_ERROR)
    {
      ostringstream oss;
      oss << "=>redistributing: " << fileName << ", oid=" << dc.oid << ", db=" << dc.dbroot
          << ", part=" << dc.partition << ", seg=" << dc.segment << " from db=" << fMsgHeader.source;
      logMessage(oss.str(), __LINE__);
    }
    else
    {
      fErrorCode = RED_EC_OID_TO_FILENAME;
      ostringstream oss;
      oss << "Failed to get file name: oid=" << dc.oid << ", dbroot=" << dc.dbroot
          << ", partition=" << dc.partition << ", segment=" << dc.segment;
      fErrorMsg = oss.str();
      logMessage(fErrorMsg, __LINE__);
      throw runtime_error(fErrorMsg);
    }

    if (fNewFilePtr != NULL)
      closeFile(fNewFilePtr);

    errno = 0;
    fNewFilePtr = fopen(fileName, "wb");

    if (fNewFilePtr != NULL)
    {
      ostringstream oss;
      oss << "open " << fileName << ", oid=" << dc.oid << ", dbroot=" << dc.dbroot
          << ", partition=" << dc.partition << ", segment=" << dc.segment << ". " << fNewFilePtr;
      logMessage(oss.str(), __LINE__);
    }
    else
    {
      int e = errno;
      fErrorCode = RED_EC_OPEN_FILE_FAIL;
      ostringstream oss;
      oss << "Failed to open " << fileName << ", oid=" << dc.oid << ", dbroot=" << dc.dbroot
          << ", partition=" << dc.partition << ", segment=" << dc.segment << ". " << strerror(e) << " (" << e
          << ")";
      fErrorMsg = oss.str();
      logMessage(fErrorMsg, __LINE__);
      throw runtime_error(fErrorMsg);
    }

    // set output buffering
    errno = 0;

    if (setvbuf(fNewFilePtr, fWriteBuffer.get(), _IOFBF, CHUNK_SIZE))
    {
      int e = errno;
      ostringstream oss;
      oss << "Failed to set i/o buffer: " << strerror(e) << " (" << e << ")";
      fErrorMsg = oss.str();
      logMessage(fErrorMsg, __LINE__);

      // not throwing an exception now.
    }

    // add to set for remove after abort
    addToDirSet(fileName, false);

    // do a fseek will show the right size, but will not actually allocate the continuous block.
    // do write 4k block till file size.
    char buf[PRE_ALLOC_SIZE] = {1};
    size_t nmemb = size / PRE_ALLOC_SIZE;

    while (nmemb-- > 0)
    {
      errno = 0;
      size_t n = fwrite(buf, PRE_ALLOC_SIZE, 1, fNewFilePtr);

      if (n != 1)
      {
        int e = errno;
        ostringstream oss;
        oss << "Fail to preallocate file: " << strerror(e) << " (" << e << ")";
        fErrorMsg = oss.str();
        fErrorCode = RED_EC_FWRITE_FAIL;
        logMessage(fErrorMsg, __LINE__);
        throw runtime_error(fErrorMsg);
      }
    }

    // move back to beging to write real data
    fflush(fNewFilePtr);
    rewind(fNewFilePtr);
  }
  catch (const std::exception& ex)
  {
    // NACK
    size = -1;
    logMessage(ex.what(), __LINE__);
  }
  catch (...)
  {
    // NACK
    size = -1;
  }

  // ack file size
  fMsgHeader.messageId = RED_DATA_ACK;
  fBs.restart();
  fBs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;  // dummy, keep for now.
  fBs.append((const ByteStream::byte*)&fMsgHeader, sizeof(fMsgHeader));
  fBs << size;
  fIOSocket.write(fBs);

  // reset to count the data received
  size = 0;
  sbs.reset();
}

void RedistributeWorkerThread::handleDataCont(SBS& sbs, size_t& size)
{
  size_t ack = 0;

  try
  {
    size_t bytesRcvd = 0;
    *sbs >> bytesRcvd;

    if (bytesRcvd != sbs->length())
    {
      ostringstream oss;
      oss << "Incorrect data length: " << sbs->length() << ", expecting " << bytesRcvd;
      fErrorMsg = oss.str();
      fErrorCode = RED_EC_BS_TOO_SHORT;
      logMessage(fErrorMsg, __LINE__);
      throw runtime_error(fErrorMsg);
    }

    errno = 0;
    size_t n = fwrite(sbs->buf(), 1, bytesRcvd, fNewFilePtr);

    if (n != bytesRcvd)
    {
      int e = errno;
      ostringstream oss;
      oss << "Fail to write file: " << strerror(e) << " (" << e << ")";
      fErrorMsg = oss.str();
      fErrorCode = RED_EC_FWRITE_FAIL;
      logMessage(fErrorMsg, __LINE__);
      throw runtime_error(fErrorMsg);
    }

    ack = bytesRcvd;
    size += ack;
  }
  catch (const std::exception&)
  {
    // NACK
    size = -1;
  }
  catch (...)
  {
    // NACK
    ack = -1;
  }

  // ack received data
  sbs.reset();
  fMsgHeader.messageId = RED_DATA_ACK;
  fBs.restart();
  fBs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;  // dummy, keep for now.
  fBs.append((const ByteStream::byte*)&fMsgHeader, sizeof(fMsgHeader));
  fBs << ack;
  fIOSocket.write(fBs);
}

void RedistributeWorkerThread::handleDataFinish(SBS& sbs, size_t& size)
{
  size_t ack = 0;

  // close open file
  closeFile(fNewFilePtr);
  fNewFilePtr = NULL;

  try
  {
    size_t fileSize = 0;
    *sbs >> fileSize;

    if (fileSize != size)
    {
      ostringstream oss;
      oss << "File size not match: local=" << size << ", remote=" << fileSize;
      fErrorMsg = oss.str();
      fErrorCode = RED_EC_FILE_SIZE_NOT_MATCH;
      logMessage(fErrorMsg, __LINE__);
      throw runtime_error(fErrorMsg);
    }

    ack = size;
  }
  catch (const std::exception&)
  {
    // NACK
    size = -1;
  }
  catch (...)
  {
    // NACK
    ack = -1;
  }

  // ack received data
  sbs.reset();
  fMsgHeader.messageId = RED_DATA_ACK;
  fBs.restart();
  fBs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;  // dummy, keep for now.
  fBs.append((const ByteStream::byte*)&fMsgHeader, sizeof(fMsgHeader));
  fBs << ack;
  fIOSocket.write(fBs);
}

void RedistributeWorkerThread::handleDataCommit(SBS& sbs, size_t& size)
{
  size_t ack = 0;
  sbs.reset();
  fMsgHeader.messageId = RED_DATA_ACK;
  fBs.restart();
  fBs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;  // dummy, keep for now.
  fBs.append((const ByteStream::byte*)&fMsgHeader, sizeof(fMsgHeader));
  fBs << ack;
  fIOSocket.write(fBs);
}

void RedistributeWorkerThread::handleDataAbort(SBS& sbs, size_t& size)
{
  // close open file
  if (fNewFilePtr != NULL)
    closeFile(fNewFilePtr);

  IDBFileSystem& fs = (IDBPolicy::useHdfs()    ? IDBFileSystem::getFs(IDBDataFile::HDFS)
                       : IDBPolicy::useCloud() ? IDBFileSystem::getFs(IDBDataFile::CLOUD)
                                               : IDBFileSystem::getFs(IDBDataFile::BUFFERED));

  // remove local files
  for (set<string>::iterator i = fNewDirSet.begin(); i != fNewDirSet.end(); i++)
  {
    fs.remove(i->c_str());  // ignoring return code
  }

  // send ack
  sbs.reset();
  size_t ack = 0;
  fMsgHeader.messageId = RED_DATA_ACK;
  fBs.restart();
  fBs << (ByteStream::byte)WriteEngine::WE_SVR_REDISTRIBUTE;  // dummy, keep for now.
  fBs.append((const ByteStream::byte*)&fMsgHeader, sizeof(fMsgHeader));
  fBs << ack;
  fIOSocket.write(fBs);
}

void RedistributeWorkerThread::handleUnknowDataMsg()
{
  ostringstream oss;
  oss << "Unknown data message: " << fMsgHeader.messageId;
  fErrorMsg = oss.str();
  fErrorCode = RED_EC_UNKNOWN_DATA_MSG;
  logMessage(fErrorMsg, __LINE__);
  throw runtime_error(fErrorMsg);
}

void RedistributeWorkerThread::handleUnknowJobMsg()
{
  ostringstream oss;
  oss << "Unknown job message: " << fMsgHeader.messageId;
  fErrorMsg = oss.str();
  fErrorCode = RED_EC_UNKNOWN_JOB_MSG;
  logMessage(fErrorMsg, __LINE__);

  // protocol error, ignore and close connection.
}

void RedistributeWorkerThread::closeFile(FILE* f)
{
  if (f == NULL)
    return;

  ostringstream oss;
  oss << "close file* " << f << " ";

  errno = 0;
  int rc = fclose(f);

  if (rc != 0)
    oss << "error: " << strerror(errno) << " (" << errno << ")";
  else
    oss << "OK";

  logMessage(oss.str(), __LINE__);
}

void RedistributeWorkerThread::logMessage(const string& msg, int line)
{
  ostringstream oss;
  oss << msg << " @workerThread:" << line;
  RedistributeControl::instance()->logMessage(oss.str());
}

}  // namespace redistribute

